CN104482203A - Wear-resistant nano ceramic sealing ring - Google Patents

Abstract

The invention discloses a wear-resistant nano ceramic sealing ring, by means of taking nanoscale raw material white corundum, silicon dioxide, silicon carbide, boron carbide, zinc oxide, titanium oxide and the like as green body materials, and taking chloroprene rubber, silicone rubber, brominated butyl rubber, N660 carbon black, glass fiber, activating agent and PEG20000 as rubber components, the sealing ring is obtained through heat vulcanization process, the preparation process is simple and easy to industrialize, and the sealing ring prepared has excellent physical and chemical properties.

Description

A kind of wear-resistant nano ceramics seal ring

Technical field

The invention belongs to seal ring field, particularly the wear-resistant nano ceramics seal ring of one.

Background technique

Along with the development of China's science and technology, various technique is also more and more higher for the demand of mechanical seal and motion seal, in the field such as metallurgy, machinery, chemical industry, medicine, food, anti-corrosive pump, automobile and pneumatic element, more and more need that precision is high, mechanical strength good, high temperature abrasion resistance is good, resistance to chemical corrosion is good, the seal ring of waterproof contour performance during temperature jump.

Ceramic seal circle is the emphasis of research now, has people by aluminium oxide 50 ~ 70wt%; Zirconium oxide 10 ~ 20wt%; Ethylene glycol 3 ~ 7wt%; Polyethylene 5 ~ 9wt%; One or more 2 ~ 5wt% in Ludox, Alumina gel or soft clay make fireproof clay sealing ring, but its purposes is limited, and sealability also awaits improving; And nano ceramics is incorporated into the focus that ceramic field is research now, due to the excellent physical and chemical performance that nanometer material has, the mechanics of nano ceramics, electricity and mechanical property greatly will be improved.

How pottery and seal ring are combined, formed by optimizing raw material, obtain high performance ceramic seal circle and remain the focus and difficult point that everybody pays close attention to.

Summary of the invention

The object of the invention is for the problems referred to above, developing one and nanometer material is incorporated in ceramic seal circle, by distributing suitable raw material rationally, obtaining the ceramic seal circle with high wear resistance.

Sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part is by hot vulcanization process layout in rubber, and the weight portion of nano ceramics part consists of:

Nanometer white fused alumina 50-70 part

Nano silicon 10-30 part

Nanometer silicon carbide 10-20 part

Fused magnesite 10-15 part

Nano boron carbide 5-10 part

Nano zine oxide 5-10 part

Nano-titanium oxide 5-10 part

Carbon black 5-10 part

Yttrium stable zirconium oxide 10-20 part

Andalusite 6-10 part

Tempering fiber 1-5 part

PVA 1-3 part

Aluminate cement 1-3 part;

The weight portion of rubber part consists of:

Neoprene 50-70 part

Silicone rubber 30-40 part

Brombutyl 30-50 part

N660 carbon black 20-40 part

Glass fibre 3-5 part

Activator 1-3 part

PEG20000 1-3 part;

The wearing coefficient of described seal ring reaches as high as 200g/cm3, and normal pressure compressive strength is 600-800Mpa, and normal pressure bending strength is 650-850Mpa, and resistance to maximum operation (service) temperature is not less than 1800 DEG C, and thermal conductivity is 30-44w/(mk).

As preferably, described nanometer white fused alumina is of a size of 40-80nm.

As preferably, described nano silicon is of a size of 80-100nm.

Described wear-resistant ceramic seal ring is obtained by following preparation method:

(1) after ceramic raw material being mixed in proportion, carry out ball milling, ball-milling medium is purified water, abrading-ball is aluminium oxide abrading-ball, by ball milling 1-3h, obtain mixing homogeneous slurry, by sieving, after mist projection granulating, carry out secondary ball milling, ball-milling medium is purified water, abrading-ball is aluminium oxide abrading-ball, by ball milling 1-3h, the slurry after ball milling is placed in mould, compressing with the pressure isostatic pressed of 10-20Mpa, obtain green compact, at 800 ~ 830 DEG C, biscuiting 30-40min is carried out to green compact subsequently, obtain ceramic body;

(2) rubber raw materials is carried out fragmentation, ground and mixed, ball-milling medium is purified water, and abrading-ball is aluminium oxide abrading-ball, obtains homogeneous rubber raw materials;

(3) be injected in ceramic body by rubber raw materials through high-pressure injection moulding machine, carry out sulfuration 3-5h subsequently in sulfurizing pot, sulfurize temperature is 170-250 DEG C

(4) wear-resistant ceramic seal ring is obtained through conventional reprocessing.

Beneficial effect of the present invention:

(1) various blank raw material and rubber raw materials are organically combined by creationary by the present invention, and by optimized fabrication technique, obtain good mechanical property, the wear-resistant ceramic seal ring of refractory heat-insulating, health environment-friendly.

(2) the present invention is by introducing nano inorganic material in the ceramic composition of seal ring, further increase the physical and chemical performance of seal ring, its wearing coefficient, normal pressure compressive strength, normal pressure bending strength and the parameter such as resistance to maximum operation (service) temperature and thermal conductivity all promote greatly compared to common seal ring.

(4) the seal ring preparation process for preparing of the present invention is simple, environmental protection, and is convenient to industrialized production.

Embodiment

Below in conjunction with specific embodiment, and reference data describes in further detail the present invention.Should be understood that these embodiments just in order to demonstrate the invention, but not limit the scope of the invention by any way.

Embodiment 1:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 70 parts

Nano silicon 30 parts

Nanometer silicon carbide 20 parts

Fused magnesite 15 parts

Nano boron carbide 10 parts

Nano zine oxide 10 parts

Nano-titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

Nanometer white fused alumina is of a size of 80nm;

Nano silicon is of a size of 100nm;

The wearing coefficient of described seal ring is 200g/cm3, and normal pressure compressive strength is 800Mpa, and normal pressure bending strength is 800Mpa, and resistance to maximum operation (service) temperature is 1980 DEG C, and thermal conductivity is 42w/(mk).

Embodiment 2:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 50 parts

Nano silicon 10 parts

Nanometer silicon carbide 10 parts

Fused magnesite 10 parts

Nano boron carbide 5 parts

Nano zine oxide 5 parts

Nano-titanium oxide 5 parts

Carbon black 5 parts

Yttrium stable zirconium oxide 10 parts

Andalusite 6 parts

Tempering fiber 1 part

PVA 1 part

Aluminate cement 1 part;

The weight portion of rubber part consists of:

Neoprene 50 parts

30 parts, silicone rubber

Brombutyl 30 parts

N660 carbon black 20 parts

3 parts, glass fibre

1 part, activator

PEG20000 1 part;

Nanometer white fused alumina is of a size of 40nm;

Nano silicon is of a size of 80nm;

The wearing coefficient 180g/cm3 of described seal ring, normal pressure compressive strength is 770Mpa, and normal pressure bending strength is 800Mpa, resistance to maximum operation (service) temperature 1990 DEG C, and thermal conductivity is 40w/(mk).

Embodiment 3:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 60 parts

Nano silicon 30 parts

Nanometer silicon carbide 20 parts

Fused magnesite 15 parts

Nano boron carbide 10 parts

Nano zine oxide 10 parts

Nano-titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

Nanometer white fused alumina is of a size of 80nm;

Nano silicon is of a size of 90nm;

The wearing coefficient of described seal ring is 190g/cm3, and normal pressure compressive strength is 700Mpa, and normal pressure bending strength is 770Mpa, and resistance to maximum operation (service) temperature is 1940 DEG C, and thermal conductivity is 40w/(mk).

Embodiment 4:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 50 parts

Nano silicon 20 parts

Nanometer silicon carbide 20 parts

Fused magnesite 15 parts

Nano boron carbide 10 parts

Nano zine oxide 10 parts

Nano-titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

Nanometer white fused alumina is of a size of 80nm;

Nano silicon is of a size of 90nm;

The wearing coefficient of described seal ring is 185g/cm3, and normal pressure compressive strength is 720Mpa, and normal pressure bending strength is 760Mpa, and resistance to maximum operation (service) temperature is 1900 DEG C, and thermal conductivity is 42w/(mk).

Embodiment 5:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 50 parts

Nano silicon 20 parts

Nanometer silicon carbide 20 parts

Fused magnesite 15 parts

Nano boron carbide 10 parts

Nano zine oxide 10 parts

Nano-titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

Nanometer white fused alumina is of a size of 40nm;

Nano silicon is of a size of 100nm;

The wearing coefficient of described seal ring is 186g/cm3, and normal pressure compressive strength is 740Mpa, and normal pressure bending strength is 730Mpa, and resistance to maximum operation (service) temperature is 1990 DEG C, and thermal conductivity is 41w/(mk).

Comparative example 1:

A kind of wear-resistant ceramic seal ring, sealing circle is divided into two-part, and inside is ceramic segment, and outside is rubber part, and ceramic segment passes through hot vulcanization process layout in rubber,

The weight portion of ceramic segment consists of:

White fused alumina 70 parts

Silica 30 parts

20 parts, silicon carbide

Fused magnesite 15 parts

Boron carbide 10 parts

10 parts, zine oxide

Titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

White fused alumina is of a size of 80 μm;

Silica is of a size of 100 μm;

The wearing coefficient of described seal ring is 100g/cm3, and normal pressure compressive strength is 400Mpa, and normal pressure bending strength is 600Mpa, and resistance to maximum operation (service) temperature is 1480 DEG C, and thermal conductivity is 31w/(mk).

Comparative example 2:

A kind of wear-resistant nano ceramics seal ring, sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 70 parts

Nano silicon 0 part

Nanometer silicon carbide 0 part

Fused magnesite 15 parts

Nano boron carbide 0 part

Nano zine oxide 10 parts

Nano-titanium oxide 10 parts

Carbon black 10 parts

Yttrium stable zirconium oxide 20 parts

Andalusite 10 parts

Tempering fiber 5 parts

PVA 3 parts

Aluminate cement 3 parts;

The weight portion of rubber part consists of:

Neoprene 70 parts

40 parts, silicone rubber

Brombutyl 50 parts

N660 carbon black 40 parts

5 parts, glass fibre

3 parts, activator

PEG20000 3 parts;

Nanometer white fused alumina is of a size of 80nm;

The wearing coefficient of described seal ring is 150g/cm3, and normal pressure compressive strength is 600Mpa, and normal pressure bending strength is 720Mpa, and resistance to maximum operation (service) temperature is 1580 DEG C, and thermal conductivity is 36w/(mk).

Claims (3)

1. a wear-resistant nano ceramics seal ring, is characterized in that: sealing circle is divided into two-part, and inside is nano ceramics part, and outside is rubber part, and nano ceramics part passes through hot vulcanization process layout in rubber,

The weight portion of nano ceramics part consists of:

Nanometer white fused alumina 50-70 part

Nano silicon 10-30 part

Nanometer silicon carbide 10-20 part

Fused magnesite 10-15 part

Nano boron carbide 5-10 part

Nano zine oxide 5-10 part

Nano-titanium oxide 5-10 part

Carbon black 5-10 part

Yttrium stable zirconium oxide 10-20 part

Andalusite 6-10 part

Tempering fiber 1-5 part

PVA 1-3 part

Aluminate cement 1-3 part;

The weight portion of rubber part consists of:

Neoprene 50-70 part

Silicone rubber 30-40 part

Brombutyl 30-50 part

N660 carbon black 20-40 part

Glass fibre 3-5 part

Activator 1-3 part

PEG20000 1-3 part;

The wearing coefficient of described seal ring reaches as high as 200g/cm3, and normal pressure compressive strength is 600-800Mpa, and normal pressure bending strength is 650-850Mpa, and resistance to maximum operation (service) temperature is not less than 1800 DEG C, and thermal conductivity is 30-44w/(mk).

2. a wear-resistant nano ceramics seal ring as claimed in claim 1, is characterized in that described nanometer white fused alumina is of a size of 40-80nm.

3. a wear-resistant nano ceramics seal ring as claimed in claim 1 or 2, is characterized in that described nano silicon is of a size of 80-100nm.